CN107416809A - A kind of method for preparing graphene - Google Patents
A kind of method for preparing graphene Download PDFInfo
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- CN107416809A CN107416809A CN201710402445.6A CN201710402445A CN107416809A CN 107416809 A CN107416809 A CN 107416809A CN 201710402445 A CN201710402445 A CN 201710402445A CN 107416809 A CN107416809 A CN 107416809A
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Abstract
It is an object of the invention to develop a kind of method for preparing graphene, graphite or other carbon materials are first heated to molten condition by this method under an inert gas with alkali metal, vacuum tightness is not needed, it is redispersed in after alkali metal intercalated graphite is made in organic solvent, it is complete that lamellar structure is made, individual layer rate is high, the grapheme material of good dispersion.This method has the advantages that operating process is simple, and safety, obtained graphene quality is high, and controllability is good, is adapted to large-scale production, has extensive prospects for commercial application.
Description
Technical field
The present invention relates to the synthesis field of material, more particularly to a kind of method for preparing graphene.
Background technology
The strong Hai Mu professors of peace moral of Univ Manchester UK in 2004 and Constantine Nuo Woxiao love professors pass through
A kind of very simple method has separated graphene from graphite flake.Graphene is the most thin a kind of material being currently known,
It is a kind of pure atomic structure of carbon of only one layer of atomic thickness, its C-C key is combined with sp2, forms an intensive cellular crystalline substance
Lattice structure.The graphene of individual layer only has the thickness of a carbon atom, and the graphene of this thickness, which has many graphite, not to be had
Standby characteristic.Graphene has extremely strong electric conductivity:The movement velocity of electronics in graphene has exceeded in other metallic monomers
Or the movement velocity in semiconductor, the 1/300 of the light velocity can be reached, just because of this, graphene possesses superpower electric conductivity.Stone
Black alkene has superhigh intensity:The diamond of 10 grades than Mohs' hardness of the hardness of graphene is also high, but possesses good toughness, and
It can bend.Graphene has extra specific surface area:Because the thickness of graphene only has a carbon atom thickness, i.e., 0.335 nanometer,
So graphene possesses the specific surface area of super large, the specific surface area of preferable single-layer graphene can reach 2630m2/ g, and it is general
The specific surface area of logical activated carbon is 1500m2/ g, the specific surface area of super large cause graphene to turn into the energy storage material having a high potential
Material.
At present, prepare the method for graphene mainly have it is following several:Mechanical stripping method, liquid phase stripping method, oxidation-reduction method,
Chemical vapour deposition technique, epitaxial growth method and chemical synthesis.The stripping for being wherein prepared on a large scale graphene is mostly that liquid phase is peeled off
Method.Presently the most conventional liquid phase stripping method is peeled off in a solvent using ultrasonic wave from graphite using surfactant
Graphene.The method biggest advantage is to prepare on a large scale, and the graphene obtained can be stably dispersed in multi-solvents,
Such as water, DMF and NMP.But graphene-structured prepared by the method using ultrasonic wave because destroyed, and can not obtain
The graphene of individual layer, existing major part is the graphite particulate reunited in a solvent.
What research was more recently is intercalation stripping method(Graphite Intercalation Compounds, GICs),
Wherein the intercalated material used in graft process prepares graphene is mostly alkali metal or iron chloride.This method is than oxidation-reduction method toxicity
It is small, and the structure of graphene will not be destroyed.Due to the graphene of high quality can be prepared, therefore also increasingly by researcher's
Concern.However, intercalation is needed alkali metal or iron chloride gasification when operating, it is necessary to which higher temperature, vacuum tightness environment can only
The production of small lot, therefore, not only preparation process is extremely complex, and post-processes also very cumbersome and difficult, it is difficult to graphite
Carry out volume production and obtain the graphene of high-quality.Therefore, it is simple to find a kind of preparation process, can largely produce and can obtain compared with
The method of the graphene of complete structure, it is significantly.
The content of the invention
It is an object of the invention to develop a kind of method for preparing graphene, this method is first by graphite or other carbon materials
Molten condition is heated under an inert gas with alkali metal, it is not necessary to vacuum tightness, redisperse after alkali metal intercalated graphite is made
In organic solvent, obtained lamellar structure is complete, and individual layer rate is high, the grapheme material of good dispersion.This method has operation stream
The advantages that journey is simple, and safety, obtained graphene quality is high, and controllability is good, it is adapted to large-scale production, has extensive industry should
Use prospect.
The present invention is prepared for three kinds of products:Graphene organic solution product, graphene aqueous solution product, graphene powder.
It is proposed by the present invention to prepare graphene method, comprise the following steps:
1) graphite or other carbon materials and alkali metal are 2 ~ 100 in molar ratio in an inert atmosphere by:After 1 mixes,
The molten condition of alkali metal is heated to while stirring, is cooled to after persistently stirring certain time under the molten condition of alkali metal
Room temperature, obtain graphite-alkali metal intercalation thing;
2) in an inert atmosphere, takes above-mentioned gained graphite-alkali metal intercalation thing, in must solid-liquid ratio add polarity
Organic solvent, stirring obtain the mixture of graphite-alkali metal intercalation thing and organic solvent, and then, the mixture is put into ultrasound
In pulverizer, it is ultrasonically treated, obtains graphene suspension;
3) in an inert atmosphere, the graphene suspension is centrifuged, takes supernatant, obtains the graphene of stable dispersion
Organic solution, as graphene organic solution product;
4) organic solution of graphene is added in the aqueous solution containing surfactant, organic solvent is volatilized, obtained by
The aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product;
5) is evaporated drying process to above-mentioned graphene aqueous solution product, obtains graphene powder.
Step 1)In, the inert gas is nitrogen, argon gas or helium.
Step 1)In, the alkali metal is at least one of lithium, sodium, potassium.
Step 1)In, the graphite is natural scale graphite(English is natural graphite or natural
flake graphite), Delanium(English is artificial graphite or synthetic graphite)With it is swollen
Swollen graphite(English is expended graphite)In one kind;Other carbon materials are nano carbon particle(English is carbon
nanoparticles)And carbon nano-fiber(English is graphite nanofibers)In one kind.
Step 1)In, the size of above-mentioned graphite and other carbon materials is one kind in Nano grade or micron level.
Step 1)In, during the alkali metal fusion state temperature for the alkali metal more than 5 DEG C of melting temperature.
Step 1)In, it is 20 minutes~48 hours to continue mixing time under molten condition.
As shown in table 1, graphite-alkali metal intercalation compound is by any one of reactant graphite or other carbon materials
Obtained by any one reaction of reactant alkali metal, 9 kinds of graphite-alkali metal intercalation compound is shared:Natural flake graphite-
Lithium, natural flake graphite-sodium, natural flake graphite-potassium, Delanium-lithium, Delanium-sodium, Delanium-potassium, expansion stone
Ink-lithium, expanded graphite-sodium, expanded graphite-potassium;6 kinds of other carbon materials-alkali metal intercalation compounds are:Nano carbon particle-lithium,
Nano carbon particle-sodium, nano carbon particle-potassium, carbon nano-fiber-lithium, carbon nano-fiber-sodium, carbon nano-fiber-potassium.
1. graphite of table-alkali metal intercalation compound.
In this patent, as non-specifically proposed, above-mentioned 15 kinds of intercalation compounds are referred to as graphite-alkali metal intercalation thing.
Step 2)In, the polar organic solvent is tetrahydrofuran (THF), acetonitrile, 1,2- dimethoxy-ethanes (DME),
Diethylene glycol diethyl ether, three or tetraethyleneglycol dimethyl ether, sulfolane (tetramethylene sulfone), tetramethylene sulfoxide (TMSO), N, N-
Diethyl acetamide, DMA (DMAc), DMF (DMF), 1-METHYLPYRROLIDONE
(NMP), dimethyl sulfoxide (DMSO) (DMSO), dimethyl sulfone, diphenyl sulfoxide, diphenyl sulphone (DPS), tetramethylurea, tetrabutylurea, 1,3- diformazans
Base -2- imidazolones (DMI), other glycol ethers, or the above-mentioned organic solvent mixture of two or more.
Step 2)In, graphite-alkali metal intercalation thing presses solid-to-liquid ratio 1mg with above-mentioned polar organic solvent:1 ~ 100mL ratio
Mixing.
Step 2)In, mixing time is 20 minutes~120 hours.
Step 2)In, the mixture of above-mentioned graphite-alkali metal intercalation thing and organic solvent is put into ultrasonic disintegrator, with
2~10kW power ultrasonic is handled 0.5~100 minute, obtains graphene suspension.
Step(3)In, above-mentioned graphene suspension is centrifuged, centrifugal speed is 300~4000rpm, centrifugation time is 5~
40 minutes, obtain the organic solution of the graphene of stable dispersion, as graphene organic solution product.
In the case that reactant is nano carbon particle and carbon nano-fiber, resulting product is that nano-graphene is organic molten
Liquid.
Step(4)In, the surfactant is lauryl sodium sulfate, neopelex(SDBS), 16
Alkyl trimethyl ammonium bromide(CTAB), polyoxyethylene laurel ether(Brij), sodium taurocholate() or sodium lignin sulfonate SC(SLS),
The solution concentration of surfactant is 0.1-5 wt %.
It is tetrahydrofuran (THF), acetonitrile, one kind of 1,2- dimethoxy-ethanes (DME) or wherein any two by solvent
The graphene organic solution of the mixture of kind or three is taken out out of glove box, is added to containing the water-soluble of above-mentioned surfactant
In liquid, organic solvent is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
In the case that reactant is nano carbon particle and carbon nano-fiber, resulting product is that nano-graphene is water-soluble
Liquid.
Step(5)In, drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
In the case that reactant is nano carbon particle and carbon nano-fiber, resulting product is nano-graphene powder.
The present invention has advantages below:
1. from step 1)To step 3)All carried out in inert gas environment, it is not necessary to vacuum environment, simplify operating procedure;
2. the preparation temperature of alkali metal intercalated graphite of the present invention is low, higher than 5 DEG C of the melting temperature of alkali metal, the energy is saved;
In the case of using lithium, reaction temperature is higher than 185 DEG C, and in the case of using sodium, reaction temperature is higher than 103 DEG C, uses potassium
In the case of, reaction temperature is higher than 69 DEG C;
3. prepared by alkali metal intercalated graphite of the present invention, in an inert atmosphere, the reaction vessel used is the glass of opening
Container, quartz container or rustless steel container, it is not necessary to seal reactor, reduce connects alkali metal and air due to poorly sealed
Tactile danger;
4. the time of alkali metal intercalated graphite of the present invention is short, generally 2 hours;
5. inventor has found according to long-term research experiment, only to graphite-alkali metal intercalation thing and the mixture of organic solvent
The concentration of graphene solution obtained by stirring is very low, it is impossible to meets the requirement of commercial Application;So in an inert atmosphere
Ultrasound is carried out to the mixture of graphite-alkali metal intercalation thing and organic solvent using ultrasonic wave, greatly improves graphene point
Dissipate concentration in a solvent;
6. the saturated concentration of graphene in a solvent for these reasons, can be grasped;
7. graphene dispersing solution is transferred to inside the aqueous solution containing surfactant, the graphene of scattered stabilization can be obtained
The aqueous solution;
8. influence very little of the whole course of reaction to environment, is nearly free from waste liquid.
Brief description of the drawings
Fig. 1 is the preparation flow figure of graphene powder.
Fig. 2 is the full spectrum of x-ray photoelectron spectroscopy (XPS) spectrogram of resulting graphene powder.Calculated according to XPS spectrum
Graphene sample in each element degree:Atomic percent carbon is 99.21%, oxygen atom percentage 0.79%.Inspection
Other elements presence is not detected, the graphene powder purity obtained by showing is high, and oxygen content is low.
Fig. 3 is that the C 1s peak positions of x-ray photoelectron spectroscopy (XPS) spectrogram of resulting graphene powder are finely composed.
Fig. 4 is that the O 1s peak positions of x-ray photoelectron spectroscopy (XPS) spectrogram of resulting graphene powder are finely composed.
Fig. 5 is the Raman spectrogram of resulting graphene powder.
Fig. 6 is the shape appearance figure of the AFM of resulting graphene powder.The size of graphene is about 3 micro-
Rice.
Fig. 7 is the shape appearance figure of the AFM of resulting graphene powder.The size of graphene is about 600 to receive
Rice.
Embodiment
The side of graphene is prepared by graphite-alkali metal intercalation thing to further illustrate below by way of specific embodiment
Method.
Embodiment 1:
In the glove box for pouring nitrogen, natural flake graphite is weighed respectively and is put into lithium in round-bottomed flask, natural flake graphite
Mol ratio with lithium is 6:1,185 °C are heated to while magnetic agitation, it is cold after persistently stirring 4 hours at this temperature
But room temperature is arrived, obtains natural flake graphite-lithium intercalation thing.
In glove box, above-mentioned resulting natural flake graphite-lithium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:2mL ratio mixing.Said mixture is stirred, the time is 6 hours.Said mixture is put into ultrasonic disintegrator, with
2kW power ultrasonic is handled 2 minutes, obtains graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 4000rpm, centrifugation time is 20 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Tetrahydrofuran solution, as graphene organic solution product.
Configuration concentration is the aqueous solution of 1 wt % lauryl sodium sulfate outside glove box.
The tetrahydrofuran solution of graphene is taken out out of glove box, is added to the aqueous solution containing above-mentioned surfactant
In, tetrahydrofuran is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 2:
In the glove box for pouring argon gas, Delanium is weighed respectively and is put into lithium in beaker, the mol ratio of Delanium and lithium
It is 12:1,250 °C are heated to while electric stirring, after persistently stirring 2 hours at this temperature, room temperature is cooled to, obtains
To Delanium-lithium intercalation thing.
In glove box, above-mentioned resulting Delanium-lithium intercalation thing and 1-METHYLPYRROLIDONE (NMP) are pressed into solid-liquid
Compare 1mg:10mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator
In, handled 1 minute with 5kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 2000rpm, centrifugation time is 10 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
1-METHYLPYRROLIDONE solution, as graphene organic solution product.
Embodiment 3:
In the glove box for pouring helium, expanded graphite and lithium being weighed respectively and is put into conical flask, expanded graphite and lithium rub
Your ratio is 72:1, churned mechanically while heated to 220 °C, after persistently stirring 20 minutes at this temperature, room temperature is cooled to,
Obtain expanded graphite-lithium intercalation thing.
In glove box, above-mentioned resulting expanded graphite-lithium intercalation thing and acetonitrile are pressed into solid-to-liquid ratio 1mg:20mL ratio
Example mixing.Said mixture is stirred, the time is 24 hours.Said mixture is put into ultrasonic disintegrator, with 10kW power
It is ultrasonically treated 0.5 minute, obtains graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 300rpm, centrifugation time is 5 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Acetonitrile solution, as graphene organic solution product.
Configuration concentration is the aqueous solution of 5 wt % cetyl trimethylammonium bromide outside glove box.
The acetonitrile solution of graphene is taken out out of glove box, is added in the aqueous solution containing above-mentioned surfactant,
Acetonitrile is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 4:
In the glove box for pouring argon gas, natural flake graphite is weighed respectively and is put into sodium in round-bottomed flask, natural flake graphite
Mol ratio with sodium is 2:1,103 °C are heated to while magnetic agitation, it is cold after persistently stirring 4 hours at this temperature
But room temperature is arrived, obtains natural flake graphite-sodium intercalation thing.
In glove box, above-mentioned resulting natural flake graphite-sodium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:100mL ratio mixing.Said mixture is stirred, the time is 120 hours.Said mixture is put into ultrasonic disintegrator
In, handled 5 minutes with 5kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 1000rpm, centrifugation time is 40 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Tetrahydrofuran solution, as graphene organic solution product.
Configuration concentration is 0.2wt % polyoxyethylene laurel ether outside glove box(Brij)The aqueous solution.
The tetrahydrofuran solution of graphene is taken out out of glove box, is added to the aqueous solution containing above-mentioned surfactant
In, tetrahydrofuran is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 5:
In the glove box for pouring nitrogen, Delanium is weighed respectively and is put into sodium in beaker, the mol ratio of Delanium and sodium
It is 36:1,150 °C are heated to while electric stirring, after persistently stirring 48 hours at this temperature, room temperature is cooled to, obtains
To Delanium-sodium intercalation thing.
In glove box, above-mentioned resulting Delanium-sodium intercalation thing and dimethyl sulfoxide (DMSO) (DMSO) are pressed into solid-to-liquid ratio
1mg:50mL ratio mixing.Said mixture is stirred, the time is 24 hours.Said mixture is put into ultrasonic disintegrator,
Handled 10 minutes with 10kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 500rpm, centrifugation time is 30 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Dimethyl sulphoxide solution, as graphene organic solution product.
Embodiment 6:
In the glove box for pouring nitrogen, expanded graphite and sodium being weighed respectively and is put into conical flask, expanded graphite and sodium rub
Your ratio is 100:1, churned mechanically while heated to 180 °C, after persistently stirring 1 hour at this temperature, it is cooled to room
Temperature, obtain expanded graphite-sodium intercalation thing.
In glove box, by above-mentioned resulting expanded graphite-sodium intercalation thing and 1,2- dimethoxy-ethane (DME) by solid
Liquor ratio 1mg:1mL ratio mixing.Said mixture is stirred, the time is 20 minutes.Said mixture is put into ultrasonic disintegrator
In, handled 5 minutes with 10kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 700rpm, centrifugation time is 15 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
1,2- dimethoxyethane solution, as graphene organic solution product.
Configuration concentration is 3 wt % sodium lignin sulfonate outside glove box(SLS the aqueous solution).
1, the 2- dimethoxyethane solutions of graphene are taken out out of glove box, are added to containing above-mentioned surfactant
The aqueous solution in, make 1,2- dimethoxy-ethanes volatilize, obtain the aqueous solution of the graphene of stable dispersion, as graphene is water-soluble
Liquid product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 7:
In the glove box for pouring nitrogen, natural flake graphite is weighed respectively and is put into potassium in beaker, natural flake graphite and potassium
Mol ratio be 8:1,69 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, is cooled to room
Temperature, obtain natural flake graphite-potassium intercalation thing.
In glove box, above-mentioned resulting natural flake graphite-potassium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:10mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator,
Handled 2 minutes with 3kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 1500rpm, centrifugation time is 6 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Tetrahydrofuran solution, as graphene organic solution product.
Configuration concentration is the aqueous solution of 1.5 wt % lauryl sodium sulfate outside glove box.
The tetrahydrofuran solution of graphene is taken out out of glove box, is added to the aqueous solution containing above-mentioned surfactant
In, organic solvent is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 8:
In the glove box for pouring argon gas, Delanium is weighed respectively and is put into potassium in beaker, the mol ratio of Delanium and potassium
It is 24:1,180 °C are heated to while electric stirring, after persistently stirring 48 hours at this temperature, room temperature is cooled to, obtains
To Delanium-potassium intercalation thing.
In glove box, above-mentioned resulting Delanium-potassium intercalation thing and 1-METHYLPYRROLIDONE (NMP) are pressed into solid-liquid
Compare 1mg:50mL ratio mixing.Said mixture is stirred, the time is 24 hours.Said mixture is put into ultrasonic disintegrator
In, handled 30 minutes with 4kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 2500rpm, centrifugation time is 8 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
1-METHYLPYRROLIDONE solution, as graphene organic solution product.
Embodiment 9:
In the glove box for pouring helium, expanded graphite and potassium being weighed respectively and is put into conical flask, expanded graphite and potassium rub
Your ratio is 36:1, churned mechanically while heated to 250 °C, after persistently stirring 12 hours at this temperature, it is cooled to room
Temperature, obtain expanded graphite-potassium intercalation thing.
In glove box, above-mentioned resulting expanded graphite-potassium intercalation thing and dimethyl sulfoxide (DMSO) (DMSO) are pressed into solid-to-liquid ratio
1mg:5mL ratio mixing.Said mixture is stirred, the time is 20 minutes.Said mixture is put into ultrasonic disintegrator, with
6kW power ultrasonic is handled 100 minutes, obtains graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 3500rpm, centrifugation time is 12 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Dimethyl sulphoxide solution, as graphene organic solution product.
Embodiment 10:
In the glove box for pouring nitrogen, natural flake graphite is weighed respectively and is put into potassium in beaker, natural flake graphite and potassium
Mol ratio be 24:1,120 °C are heated to while magnetic agitation, after persistently stirring 3 hours at this temperature, is cooled to
Room temperature, obtain natural flake graphite-potassium intercalation thing.
In glove box, above-mentioned resulting natural flake graphite-potassium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:15mL ratio mixing.Said mixture is stirred, the time is 5 hours.Said mixture is put into ultrasonic disintegrator, with
1kW power ultrasonic is handled 2 minutes, obtains graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 3000rpm, centrifugation time is 8 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Tetrahydrofuran solution, as graphene organic solution product.
Configuration concentration is the aqueous solution of 1 wt % lauryl sodium sulfate outside glove box.
The tetrahydrofuran solution of graphene is taken out out of glove box, is added to the aqueous solution containing above-mentioned surfactant
In, tetrahydrofuran is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 11:
In the glove box for pouring nitrogen, expanded graphite and potassium being weighed respectively and is put into beaker, natural flake graphite and potassium rub
Your ratio is 36:1,140 °C are heated to while magnetic agitation, after persistently stirring 5 hours at this temperature, is cooled to room
Temperature, obtain expanded graphite-potassium intercalation thing.
In glove box, above-mentioned resulting expanded graphite-potassium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio 1mg:
40mL ratio mixing.Said mixture is stirred, the time is 8 hours.Said mixture is put into ultrasonic disintegrator, with 1kW
Power ultrasonic handle 5 minutes, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 4000rpm, centrifugation time is 16 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
Tetrahydrofuran solution, as graphene organic solution product.
Configuration concentration is the aqueous solution of 2 wt % cetyl trimethylammonium bromide outside glove box.
The tetrahydrofuran solution of graphene is taken out out of glove box, is added to the aqueous solution containing above-mentioned surfactant
In, tetrahydrofuran is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphene aqueous solution product.
Drying process is evaporated to above-mentioned graphene aqueous solution product, obtains graphene powder.
Embodiment 12:
In the glove box for pouring argon gas, Delanium and potassium being weighed respectively and is put into beaker, natural flake graphite and potassium rub
Your ratio is 8:1,160 °C are heated to while magnetic agitation, after persistently stirring 3 hours at this temperature, is cooled to room temperature,
Obtain Delanium-potassium intercalation thing.
In glove box, above-mentioned resulting Delanium-potassium intercalation thing and 1-METHYLPYRROLIDONE (NMP) are pressed into solid-liquid
Compare 1mg:2mL ratio mixing.Said mixture is stirred, the time is 8 hours.Said mixture is put into ultrasonic disintegrator,
Handled 2 minutes with 2kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 1000rpm, centrifugation time is 20 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
1-METHYLPYRROLIDONE solution, as graphene organic solution product.
Embodiment 13:
In the glove box for pouring argon gas, expanded graphite is weighed respectively and is put into potassium in beaker, the mol ratio of expanded graphite and potassium
It is 36:1,180 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, room temperature is cooled to, obtains
To expanded graphite-potassium intercalation thing.
In glove box, above-mentioned resulting expanded graphite-potassium intercalation thing and 1-METHYLPYRROLIDONE (NMP) are pressed into solid-liquid
Compare 1mg:20mL ratio mixing.Said mixture is stirred, the time is 16 hours.Said mixture is put into ultrasonic disintegrator
In, handled 1 minute with 2kW power ultrasonic, obtain graphene suspension.
In glove box, above-mentioned graphene suspension is centrifuged, centrifugal speed 2000rpm, centrifugation time is 15 minutes.
In glove box, the graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the graphene of stable dispersion
1-METHYLPYRROLIDONE solution, as graphene organic solution product.
Embodiment 14:
In the glove box for pouring nitrogen, nano carbon particle and potassium being weighed respectively and is put into beaker, nano carbon particle and potassium rub
Your ratio is 8:1,180 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, is cooled to room temperature,
Obtain nano carbon particle-potassium intercalation thing.
In glove box, above-mentioned resulting nano carbon particle-potassium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:2mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator, with
2kW power ultrasonic is handled 1 minute, obtains nano-graphene suspension.
In glove box, above-mentioned nano-graphene suspension is centrifuged, centrifugal speed 900rpm, centrifugation time is 20 points
Clock.
In glove box, the nano-graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the nanometer of stable dispersion
The tetrahydrofuran solution of graphene, as nano-graphene organic solution product.
Configuration concentration is 0.2 wt % sodium taurocholate outside glove box(SC the aqueous solution).
The tetrahydrofuran solution of nano-graphene is taken out out of glove box, is added to the water containing above-mentioned surfactant
In solution, tetrahydrofuran is volatilized, obtain the aqueous solution of the nano-graphene of stable dispersion, as nano-graphite aqueous solution produces
Product.
Drying process is evaporated to above-mentioned nano-graphene aqueous products, obtains nano-graphene powder.
Embodiment 15:
In the glove box for pouring nitrogen, nano carbon particle and potassium being weighed respectively and is put into beaker, nano carbon particle and potassium rub
Your ratio is 8:1,150 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, is cooled to room temperature,
Obtain nano carbon particle-potassium intercalation thing.
In glove box, by above-mentioned resulting nano carbon particle-potassium intercalation thing and 1-METHYLPYRROLIDONE (NMP) by solid
Liquor ratio 1mg:2mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator
In, handled 1 minute with 2kW power ultrasonic, obtain nano-graphene suspension.
In glove box, above-mentioned nano-graphene suspension is centrifuged, centrifugal speed 1300rpm, centrifugation time 20
Minute.
In glove box, the nano-graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the nanometer of stable dispersion
The 1-METHYLPYRROLIDONE solution of graphene, as nano-graphene organic solution product.
Embodiment 16:
In the glove box for pouring argon gas, carbon nano-fiber and potassium being weighed respectively and is put into beaker, carbon nano-fiber and potassium rub
Your ratio is 8:1,180 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, is cooled to room temperature,
Obtain carbon nano-fiber-potassium intercalation thing.
In glove box, above-mentioned resulting carbon nano-fiber-potassium intercalation thing and tetrahydrofuran (THF) are pressed into solid-to-liquid ratio
1mg:20mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator,
Handled 1 minute with 1kW power ultrasonic, obtain nano-graphene suspension.
In glove box, above-mentioned nano-graphene suspension is centrifuged, centrifugal speed 1500rpm, centrifugation time 30
Minute.
In glove box, the nano-graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the nanometer of stable dispersion
The tetrahydrofuran solution of graphene, as nano-graphene organic solution product.
Configuration concentration is the aqueous solution of 1 wt % lauryl sodium sulfate outside glove box.
The tetrahydrofuran solution of nano-graphene is taken out out of glove box, is added to the water containing above-mentioned surfactant
In solution, tetrahydrofuran is volatilized, obtain the aqueous solution of the nano-graphene of stable dispersion, as nano-graphite aqueous solution produces
Product.
Drying process is evaporated to above-mentioned nano-graphene aqueous products, obtains nano-graphene powder.
Embodiment 17:
In the glove box for pouring argon gas, carbon nano-fiber and potassium being weighed respectively and is put into beaker, carbon nano-fiber and potassium rub
Your ratio is 8:1,180 °C are heated to while magnetic agitation, after persistently stirring 2 hours at this temperature, is cooled to room temperature,
Obtain carbon nano-fiber-potassium intercalation thing.
In glove box, by above-mentioned resulting carbon nano-fiber-potassium intercalation thing and 1-METHYLPYRROLIDONE (NMP) by solid
Liquor ratio 1mg:40mL ratio mixing.Said mixture is stirred, the time is 12 hours.Said mixture is put into ultrasonic disintegrator
In, handled 1 minute with 2kW power ultrasonic, obtain nano-graphene suspension.
In glove box, above-mentioned nano-graphene suspension is centrifuged, centrifugal speed 1200rpm, centrifugation time 10
Minute.
In glove box, the nano-graphene suspension after above-mentioned centrifugation is taken into supernatant, obtains the nanometer of stable dispersion
The 1-METHYLPYRROLIDONE solution of graphene, as nano-graphene organic solution product.
Embodiment described above only expresses the several embodiments of the present invention, and its description is more specific and detailed, but simultaneously
Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art
For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention
Protect scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.
Claims (10)
1. one kind prepares graphene method, comprise the following steps:
1) graphite or other carbon materials and alkali metal are 2 ~ 100 in molar ratio in an inert atmosphere by:After 1 mixes,
The molten condition of alkali metal is heated to while stirring, is cooled to after persistently stirring certain time under the molten condition of alkali metal
Room temperature, obtain graphite-alkali metal intercalation thing;
2) in an inert atmosphere, takes above-mentioned gained graphite-alkali metal intercalation thing, in must solid-liquid ratio add polarity
Organic solvent, stirring obtain the mixture of graphite-alkali metal intercalation thing and organic solvent, and then, the mixture is put into ultrasound
In pulverizer, it is ultrasonically treated, obtains graphene suspension;
3) in an inert atmosphere, the graphene suspension is centrifuged, takes supernatant, obtains the graphene of stable dispersion
Organic solution, as graphene organic solution product;
In step 1), the inert gas is nitrogen, argon gas or helium;
In step 1), the alkali metal is at least one of lithium, sodium, potassium;
In step 1), the graphite is one kind in natural scale graphite, Delanium and expanded graphite;Other carbon materials are to receive
One kind in rice carbon particle and carbon nano-fiber;
In step 2), the polar organic solvent is tetrahydrofuran (THF), acetonitrile, 1,2- dimethoxy-ethanes (DME), diethyl
Glycol diethyl ether, three or tetraethyleneglycol dimethyl ether, sulfolane (tetramethylene sulfone), tetramethylene sulfoxide (TMSO), N, N- diethyls
Yl acetamide, DMA (DMAc), DMF (DMF), 1-METHYLPYRROLIDONE (NMP), two
Methyl sulfoxide (DMSO), dimethyl sulfone, diphenyl sulfoxide, diphenyl sulphone (DPS), tetramethylurea, tetrabutylurea, 1,3- dimethyl -2- imidazoles
Quinoline ketone (DMI), other glycol ethers, or the above-mentioned organic solvent mixture of two or more.
2. graphene method is prepared according to claim 1, it is characterised in that by the organic solution of the graphene, be added to
In the aqueous solution containing surfactant, organic solvent is volatilized, obtain the aqueous solution of the graphene of stable dispersion, as graphite
Aqueous solution product;The organic solution is one among tetrahydrofuran (THF), acetonitrile, 1,2- dimethoxy-ethanes (DME)
Kind, or the mixture of wherein any two kinds or three;The surfactant is lauryl sodium sulfate, detergent alkylate sulphur
Sour sodium(SDBS), cetyl trimethylammonium bromide(CTAB), polyoxyethylene laurel ether(Brij), sodium taurocholate(SC it is) or wooden
Plain sodium sulfonate(SLS), the solution concentration of surfactant is 0.1-5 wt %.
3. graphene method is prepared according to claim 1, it is characterised in that the size of the graphite and other carbon materials is
One kind in Nano grade or micron level.
4. graphene method is prepared according to claim 1, it is characterised in that temperature is to be somebody's turn to do during the alkali metal fusion state
More than 5 DEG C of the melting temperature of alkali metal.
5. graphene method is prepared according to claim 1, it is characterised in that it is 20 points to continue mixing time under molten condition
Clock~48 hour.
6. graphene method is prepared according to claim 1, it is characterised in that the graphite-alkali metal intercalation thing and above-mentioned pole
Property organic solvent presses solid-to-liquid ratio 1mg:1 ~ 100mL ratio mixing.
7. prepare graphene method according to claim 1, it is characterised in that the step 2) mixing time be 20 minutes~
120 hours.
8. graphene method is prepared according to claim 1, it is characterised in that by the graphite-alkali metal intercalation thing and organic
The mixture of solvent is put into ultrasonic disintegrator, is handled 0.5~100 minute with 2~10kW power ultrasonic, is obtained graphene and hang
Supernatant liquid.
9. graphene method is prepared according to claim 1, it is characterised in that the graphene suspension centrifugation, centrifugal speed
For 300~4000rpm, centrifugation time is 5~40 minutes, obtains the organic solution of the graphene of stable dispersion, as graphene
Organic solution product.
10. graphene method is prepared according to claim 2, it is characterised in that the graphene aqueous solution product is steamed
Drying process is sent out, obtains graphene powder.
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CN109594064A (en) * | 2018-11-08 | 2019-04-09 | 中国科学院合肥物质科学研究院 | A kind of bionical compound resistance tritium coating and preparation method thereof suitable for iron-based complex components |
CN109750316A (en) * | 2018-09-12 | 2019-05-14 | 东莞理工学院 | Electrochemistry formated ammonia catalyst based on graphene quantum dot and preparation method thereof |
WO2019196144A1 (en) * | 2018-04-09 | 2019-10-17 | 北京航空航天大学 | Method for preparing graphene by intercalation of alkali metal |
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WO2019196144A1 (en) * | 2018-04-09 | 2019-10-17 | 北京航空航天大学 | Method for preparing graphene by intercalation of alkali metal |
CN110364731A (en) * | 2018-04-09 | 2019-10-22 | 北京航空航天大学 | A kind of graphene conductive slurry |
CN109750316A (en) * | 2018-09-12 | 2019-05-14 | 东莞理工学院 | Electrochemistry formated ammonia catalyst based on graphene quantum dot and preparation method thereof |
CN109594064A (en) * | 2018-11-08 | 2019-04-09 | 中国科学院合肥物质科学研究院 | A kind of bionical compound resistance tritium coating and preparation method thereof suitable for iron-based complex components |
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CN111072015A (en) * | 2019-12-20 | 2020-04-28 | 厦门大学 | Preparation method of low-expansion thermal reduction graphene oxide |
CN111170314A (en) * | 2020-01-16 | 2020-05-19 | 王庆丰 | Method for efficiently preparing graphene through alkali metal intercalation and graphene |
WO2023081694A3 (en) * | 2021-11-03 | 2023-07-13 | The Penn State Research Foundation | Exfoliation and dispersion of carbon nanothreads |
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